Service processing method, device, and system

ABSTRACT

A service processing method includes: receiving RF signals sent by at least one terminal device, the RF signals including at least one device identifier of the at least one terminal device; selecting an RF signal from the received RF signals, and determining a terminal device corresponding to a device identifier included in the RF signal as a target payment device; collecting first biometric feature information of a user using the terminal device; and after obtaining a verification result of a verification on the user&#39;s identity based on the first biometric feature information, sending a payment request to a server if the verification is passed, wherein the payment request is configured to request for completing payment based on a payment account corresponding to the target payment device.

CROSS-REFERENCE TO RELATED APPLICATION

The present application is a continuation application of U.S.application Ser. No. 16/727,002, filed on Dec. 26, 2019, now, U.S. Pat.No. 10,984,421 which is a continuation application of and claimspriority to International Application No. PCT/CN2018/092201, filed onJun. 21 2018, which is based upon and claims priority to ChineseApplication No. 201710495521.2, filed on Jun. 26, 2017, all of which areincorporated herein by reference in their entireties.

TECHNICAL FIELD

The specification generally relates to the field of Internet informationprocessing technologies and computer technologies, and in particular, toservice processing methods, devices, and systems.

BACKGROUND

Most people are familiar with the traditional payment mode of cashpayment for products or services. With the development of Internettechnologies, a new payment mode, i.e., electronic payment mode, hasemerged. The electronic payment mode can refer to the scenario whereparties engaged in e-commerce transactions (including consumers,manufacturers, and financial institutions) implement fee payment or fundtransfer by using a digitized mode and secure information transmissionthrough information networks. Compared with the cash payment mode, itbrings convenience to people.

For example, with the mobile payment mode, when a user purchases acommodity in a store, the user can start a payment application installedon a terminal device when paying for the commodity. The terminal devicecan acquire the merchant's information by scanning, and complete thepayment through transfer of funds. Alternatively, the user can start thepayment application installed on the terminal device to generate apayment code (such as a QR code) based on a pre-bound payment account,and provide the payment code to the merchant for completing the payment.

In view of the current electronic payment modes, there is a need forservice processing methods that can improve the speed and convenience ofelectronic payment.

SUMMARY

Embodiments of the specification provides service processing methods,devices, and systems, for improving the speed and convenience ofelectronic payment.

According to some embodiments, a service processing method comprises:receiving RF signals sent by at least one terminal device, the RFsignals including at least one device identifier of the at least oneterminal device; selecting an RF signal from the received RF signals,and determining a terminal device corresponding to a device identifierincluded in the RF signal as a target payment device; collecting firstbiometric feature information of a user using the terminal device; andafter obtaining a verification result of a verification on the user'sidentity based on the first biometric feature information, sending apayment request to a server if the verification is passed, wherein thepayment request is configured to request for completing payment based ona payment account corresponding to the target payment device.

According to some embodiments, a service processing devices comprises: aprocessor, and a memory storing instructions executable by theprocessor, wherein the processor is configured to: receive RF signalssent by at least one terminal device, the RF signals including at leastone device identifier of the at least one terminal device; select an RFsignal from the received RF signals, and determine a terminal devicecorresponding to a device identifier included in the RF signal as atarget payment device; collect first biometric feature information of auser using the terminal device; and after obtaining a verificationresult of a verification on the user's identity based on the firstbiometric feature information, send a payment request to a server if theverification is passed, wherein the payment request is configured torequest for completing payment based on a payment account correspondingto the target payment device.

According to some embodiments, a service processing method comprises:transmitting an RF signal including a device identifier of a terminaldevice; and receiving payment information, the payment information beingsent by a server after completing payment based on a payment accountcorresponding to the device identifier. The device identifier is carriedin a payment request sent by a service processing device. The paymentrequest is sent by the service processing device after receiving the RFsignal and when obtaining a verification result indicating that averification on user identity of a user using the terminal device ispassed based on collected first biometric feature information of theuser.

According to some embodiments, a terminal device comprises: a processor,and a memory storing instructions executable by the processor, whereinthe processor is configured to: transmit an RF signal including a deviceidentifier of the terminal device; and receive payment information, thepayment information being sent by a server after completing paymentbased on a payment account corresponding to the device identifier. Thedevice identifier is carried in a payment request sent by a serviceprocessing device. The payment request is sent by the service processingdevice after receiving the RF signal and when obtaining a verificationresult indicating that a verification on user identity of a user usingthe terminal device is passed based on collected first biometric featureinformation of the user.

According to some embodiments, a service processing method comprises:receiving a payment request sent by a service processing device, whereinthe payment request includes a device identifier of a terminal device,and the device identifier is obtained by the service processing deviceselecting an RF signal from RF signals sent by at least one terminaldevice; determining a payment account corresponding to the deviceidentifier included in the payment request according to a mappingrelationship between the device identifier and the payment account; andcompleting payment by using the payment account.

According to some embodiments, a server comprises: a processor, and amemory storing instructions executable by the processor, wherein theprocessor is configured to: receive a payment request sent by a serviceprocessing device, wherein the payment request includes a deviceidentifier of a terminal device, and the device identifier is obtainedby the service processing device selecting an RF signal from RF signalssent by at least one terminal device; determine a payment accountcorresponding to the device identifier included in the payment requestaccording to a mapping relationship between the device identifier andthe payment account; and use the payment account to complete payment.

According to some embodiments, a service processing system comprises: aservice processing device, a terminal device, and a server. The serviceprocessing device can be configured to receive RF signals includingdevice identifiers and sent by at least one terminal device; select anRF signal from the received RF signals, and use a terminal devicecorresponding to a device identifier included in the RF signal as atarget payment device; collect first biometric feature information of auser using the terminal device; and after obtaining a user identityverification result based on the first biometric feature information,send a payment request to a server if the verification result is passingthe verification, wherein the payment request is configured to requestfor completing payment based on a payment account corresponding to thetarget payment device. The terminal device can be configured to transmitan RF signal, and receive payment information. The server can beconfigured to receive the payment request sent by the service processingdevice, and complete payment based on the payment account correspondingto the device identifier included in the payment request. The server canthen send the payment information to the terminal device correspondingto the device identifier.

The technical solutions adopted in some embodiments of the specificationcan achieve the following beneficial effects. According to someembodiments, device identifiers sent by at least one terminal device canbe received. An RF signal can be selected from the received RF signals,and a terminal device corresponding to a device identifier included inthe RF signal can be used as a target payment device. First biometricfeature information of a user using the terminal device can becollected. After obtaining a user identity verification result based onthe first biometric feature information, a payment request can be sentto a server if the verification result is passing the verification. Thepayment request can be used to request for completing payment based on apayment account corresponding to the target payment device.

Accordingly, a payment device is selected through the RF signal sent bythe terminal device. The biometric feature information of the user canbe collected, and identity authentication can be performed on the userby using the collected biometric feature information. Payment can becompleted when the authentication is passed, thereby ensuring bothsecurity of payment operations and convenience in processing the paymentoperations. The solutions provided herein can simplify the processing ofthe payment operations, implementing “hands-free payment” in the fieldof electronic payment. The solutions can therefore effectively improveuser experience in electronic payment.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings described here are used to provide furtherunderstanding of the specification, and constitute a part of thespecification. Embodiments of the specification and illustrationsthereof are used to explain the specification. The examples providedherein are not intended to form any improper limitation on the scope ofthe specification.

FIG. 1 is a flowchart of a service processing method, according to someembodiments of the specification.

FIG. 2 is a schematic diagram illustrating the process of receiving anRF signal sent by a terminal device in a detection region, according tosome embodiments of the specification.

FIG. 3 is a schematic diagram illustrating the process of detecting, byan Internet of Things (IoT) monitoring device, a terminal device used bya user when the user enters a target site, according to some embodimentsof the specification.

FIG. 4 is a schematic diagram illustrating the process of detecting, byan IoT monitoring device, a terminal device used by a user when the userdeparts from a target site, according to some embodiments of thespecification.

FIG. 5 is a flowchart of a service processing method, according to someembodiments of the specification.

FIG. 6 is a flowchart of a service processing method, according to someembodiments of the specification.

FIG. 7 is a schematic diagram of a service processing device, accordingto some embodiments of the specification.

FIG. 8 is a schematic diagram of a terminal device, according to someembodiments of the specification.

FIG. 9 is a schematic diagram of a service processing apparatus,according to some embodiments of the specification.

FIG. 10 is a schematic diagram of a service processing system, accordingto some embodiments of the specification.

DETAILED DESCRIPTION

Compared with cash payment, electronic payment (e.g., theabove-mentioned barcode or QR code scanning payment) mode improvessecurity and speed of the payment process. However, in practicalapplications, when a user uses a terminal device to complete payment,the current operation processes are relatively complicated, which causessome inconvenience to the user. For example, for a user who is holding ababy, the current payment methods such as scanning after purchasingcommodities, would be inconvenient to the user.

Embodiments of the specification provide service processing methods,devices, and systems. For example, the solutions provided herein canselect a payment device through a radio frequency (RF) signal sent by aterminal device, collect biometric feature information of a user,perform identity authentication on the user by using the biometricfeature information, and complete payment after the authentication ispassed. That way, security of payment operations and speed in processingthe payment operations can be improved. The processes of the paymentoperations can be simplified. The solutions provided herein canimplement hands-free payment in the field of electronic payment, andeffectively improve user experience in electronic payment. Hands-freepayment may be understood as an electronic payment mode that can processpayment flexibly and quickly, without excessive payment operations bythe users during the payment process.

Embodiments are described below in detail with reference tocorresponding accompanying drawings. It is appreciated that thedescribed embodiments are merely examples, rather than all embodimentsof the specification.

FIG. 1 is a flowchart of a service processing method 100 according tosome embodiments. The method 100 may be executed by, for example, aservice processing device with a checkout function. As shown in FIG. 1,the method 100 can include the following steps.

In step 101, one or more RF signals including device identifiers andsent by at least one terminal device are received.

In some embodiments, after entering a target site, a user can start ashort-range communication function of a terminal device. For example,the terminal device used by the user may send an RF signal in real timeor periodically. Once the service processing device with a checkoutfunction detects the RF signal, the user can be considered as a userwaiting for payment.

The RF signals including device identifiers and sent by at least oneterminal device can be received through a short-range communicationmode. The short-range communication mode can include, for example, oneor more of a Bluetooth communication mode, a near field communications(NFC) mode, a WIFI mode, and a sound wave mode.

In some embodiments, a payment region, which may also be referred to asa detection region, may be also determined. Once the user enters thedetection region, and the short-range communication function of theterminal device is started, the service processing device with acheckout function can receive the RF signal sent by the terminal device.That is, when it is detected that the terminal device arrives at thedetection region. RF signals including device identifiers and sent bythe terminal device are received.

FIG. 2 is a schematic diagram illustrating a process 200 of receiving anRF signal sent by a terminal device in a detection region according tosome embodiments. As shown in FIG. 2, a service processing device 201with checkout function can detect an RF signal 220 sent by a terminaldevice 203, once the user enters a detection region 210.

In some embodiments, the service processing device 201 with a checkoutfunction can transmit a detection signal in the preset detection region210. It can be determined that the arrival of the terminal device 203 atthe detection region 210 is detected when a feedback signal sent by theterminal device 203 is received.

In some embodiments, a first detection device may also be deployed inthe detection region. A first detection signal (including, for example,a device identifier of the first detection device) transmitted by thefirst detection device can cover the detection region. A seconddetection device can be deployed outside of the detection region. Asecond detection signal (including, for example, a device identifier ofthe second detection device) transmitted by the detection device cancover a region outside of the detection region. Then, when a feedbacksignal in response to the first detection signal sent by the terminaldevice is received, it can be determined that the terminal devicearrives at the detection region. In some embodiments, the firstdetection signal and the second detection signal herein can be RFsignals with transmitting directions opposite to each other.

In some embodiments of the specification, after a user enters a targetsite, an IoT monitoring device in the target site may detect theterminal device used by the user, thereby determining a deviceidentifier of the terminal device used by the user.

FIG. 3 is a schematic diagram of detecting, by an IoT monitoring device301, a terminal device 303 used by a user when the user enters a targetsite, according to some embodiments.

The service processing device with a checkout function may receive firstmonitoring data sent by the IoT monitoring device 301. The firstmonitoring data can include a device identifier of the terminal device303 used by the user entering the target site. The device identifier ofthe terminal device 303 can then be added to a user list. For example,the user list can include users who may need to perform payment. Thus,the service processing device with a checkout function may determine thenumber of the users in the target site according to the number of deviceidentifiers in the user list.

Similarly, after the user departs from the target site, an IoTmonitoring device for detecting user departure from the target site maydetect the terminal device used by the user, thereby determining thedevice identifier of the terminal device used by the user who isdeparting from the target site. FIG. 4 is a schematic diagram ofdetecting, by an IoT monitoring device 401, a terminal device 403 usedby a user when the user departs from a target site, according to someembodiments.

The service processing device with a checkout function may receivesecond monitoring data sent by the IoT monitoring device 401. The secondmonitoring data can include a device identifier of the terminal device403 used by the user departing from the target site. The user list canbe updated according to the second monitoring data. For example, thedevice identifier of the terminal device used by the departing user canbe removed.

In some embodiments, after receiving RF signals, device identifiers ofthe terminal devices sending the RF signals can be determined. Thedetermined device identifiers can be compared with the deviceidentifiers included in the user list. RF signals corresponding to thedevice identifiers that are not included in the user list can bedetermined and filtered out.

Referring back to FIG. 1, in step 103, an RF signal can be selected fromthe received RF signals, and the terminal device corresponding to thedevice identifier included in the RF signal can be taken as a targetpayment device.

In some embodiments, if an RF signal is received, the terminal devicecorresponding to the device identifier included in the RF signal istaken as the target payment device. If multiple RF signals are received,an RF signal can be selected from the multiple RF signals, and theterminal device corresponding to the device identifier included in theselected RF signal is taken as the target payment device. Exemplaryprocesses for selecting an RF signal from the received RF signals aredescribed below.

In some embodiments, the signal strength of each of the received RFsignals can be determined. The RF signal having a signal strengthgreater than a preset value is determined as the selected RF signal.

In some embodiments, a distance value corresponding to each of thereceived RF signals to a receiving device can be determined. Forexample, the distance value is determined based on the signal strengthof a received signal. The distance value can indicate a distance betweena terminal device and the receiving device. The RF signal having adistance value smaller than a preset threshold can be determined as theselected RF signal. The receiving device herein may be understood as theservice processing device with a checkout function.

In some embodiments, user information corresponding to the deviceidentifier included in each of the received RF signals can be acquiredfrom a server, e.g., according to a preset masking algorithm, whereinthe user information can be used to distinguish each of the RF signals.An RF signal can be selected from the received RF signals according tothe user information.

The masking algorithm herein may facilitate acquiring and processing theuser information corresponding to the device identifier included in eachof the received RF signals. Differences among the user informationcorresponding to the device identifiers can be obtained, therebydistinguishing different RF signals based on the user information.

In some embodiments, these differences may be sent to an operatorcontrolling the service processing device with a checkout function. Theoperator can determine a user waiting for payment according to thedifferences. The RF signal sent by the terminal device associated withthe determined user can be used as the selected RF signal.

For example, a query message can be sent to the terminal device sendingthe RF signal according to the user information. The query message canbe configured to confirm whether the user using the terminal devicematches the user corresponding to the device identifier included in theRF signal. The RF signal sent by the terminal device can be determinedas the selected RF signal after confirmation information sent by theterminal device is received.

In some embodiments, the user information acquired by using the maskingalgorithm can be a picture. The operator of the service processingdevice with a checkout function can determine through facial recognitionthat a user A waiting for payment is similar to the user recorded in thepicture. The operator may send a query message to the terminal deviceused by the user A through the service processing device with a checkoutfunction. After receiving the query message, the user A can sendconfirmation information to the service processing device with acheckout function to confirm that he/she is the user recorded in thepicture. Based on the confirmation information, the service processingdevice with a checkout function can determine the RF signal sent by theterminal device used by the user A as the selected RF signal.

In some embodiments, the user information acquired by using the maskingalgorithm can be a question. The question can be presented by theoperator of the service processing device with a checkout function to auser A waiting for payment. When the answer given by the user A isconsistent with the answer sent by the server, the operator candetermine that the RF signal sent by the terminal device used by theuser A is the selected RF signal. The operator can send confirmationinformation to the service processing device with a checkout function,such that the service processing device with a checkout functiondetermines the RF signal sent by the terminal device used by the user Aas the selected RF signal.

In some embodiments, a time at which each of the RF signals is receivedcan be determined. Each of the RF signals can be sorted according to thedetermined time. The RF signal having a sorting number smaller than apreset number can be determined as the selected RF signal according tothe sorting result. For example, a smaller sorting number may indicatethat the RF signal is received at an earlier time. For example, it isdetermined that first, second and third RF signals are received at timest1, t2, and t3, respectively. The three RF signals are then sortedaccording to the times t1, t2, and t3. In this example, t1 is earlierthan t2 and t2 is earlier than t3. Accordingly, the first, second andthird RF signals are assigned with sorting numbers 1, 2, and 3,respectively. In an embodiment, the preset number is 2 and, therefore,the first RF signal is determined as the selected signal. In anembodiment, the preset number is 3 and, therefore, any of the first andsecond RF signals can be determined as the selected signal.

After the RF signal is selected, the terminal device corresponding tothe device identifier included in the RF signal may be taken as a targetpayment device, and a payment operation can be started.

In step 105, first biometric feature information of the user using theterminal device can be collected. In some embodiments, the firstbiometric feature information of the user using the terminal device canbe collected through an image recognition device. For example, when itis determined that the user using the terminal device arrives at thedetection region, the first biometric feature information of the usercan be collected through the image recognition device.

The biometric feature information can include one or more of facefeature information, fingerprint information, palmprint information, eyeprint information, and iris information. It is appreciated that variousmodes, such as beacon, infrared detection, thermal detection, and othermodes may be adopted to determine whether the user using the terminaldevice arrives at the detection region.

In some embodiments, when acquiring the biometric feature information, auser with the smallest distance to the service processing device with acheckout function in the detection region can be selected first. Thebiometric feature information of the user can be collected to ensurethat the user is the same as the user corresponding to the determinedtarget payment device, thereby improving payment efficiency.

In step 107, after a user identity verification result based on thefirst biometric feature information is obtained, a payment request canbe sent to the server if the verification result is passing theverification. The payment request can be configured to request paymentbased on a payment account corresponding to the target payment device.

In some embodiments of the specification, the obtaining the useridentity verification result based on the first biometric featureinformation can be performed by, but is not limited to, the followingmanners.

In some embodiments, second biometric feature information of the usercorresponding to the device identifier included in the selected RFsignal can be acquired from the server. The server can store a mappingrelationship between a device identifier and biometric featureinformation of the user corresponding to the device identifier. Thefirst biometric feature information can be compared with the secondbiometric feature information. A user identity verification result canbe obtained according to the comparison result. For example, when theuser registers with the server or logs into an application client,biometric data including feature information of the user may becollected in advance. Thus, the server may store a mapping relationshipbetween the device identifier and the biometric data of the user inadvance.

If the first biometric feature information is consistent with the secondbiometric feature information, it can be determined that theverification of the user's identity is passed. If the first biometricfeature information is not consistent with the second biometric featureinformation, it can be determined that the verification on the user'sidentity is not passed. It is appreciated that, the terms “first” and“second” in the “first biometric feature information” and the “secondbiometric feature information” do not refer to any particular type offeature information, but merely used for clarity of the description.

In some embodiments, the first biometric feature information and thedevice identifier included in the selected RF signal can be sent to theserver. The server can verify the user's identity according to the firstbiometric feature information and the second biometric featureinformation of the user corresponding to the device identifier includedin the selected RF signal. The server can store a mapping relationshipbetween a device identifier and biometric feature information of theuser corresponding to the device identifier. A verification result canbe obtained.

In the service processing device or the server, when the first biometricfeature information is compared with the second biometric featureinformation, biometric features of the same type can be selected forcomparison. For example, iris information can be compared with irisinformation. That is, the first biometric feature information and thesecond biometric feature information may include information about morethan one biometric feature, and in that case, biometric features of thesame type can be selected for comparison.

In some embodiments, when the verification is passed, it indicates thatthe user corresponding to the target payment device is the same as theuser waiting for payment. At this time, order data of the user can bedetermined, and payment can be completed by using the payment accountcorresponding to the device identifier of the target payment device.

In some embodiments, the manner of determining the order data of theuser may be, for example, determining the order data of the usermanually by the operator controlling the service processing device witha checkout function. Alternatively and/or additionally, an IoTmonitoring device can monitor the commodity object(s) selected by theuser. The IoT monitoring device can then generate and send the orderdata to the service processing device with a checkout function. In someembodiments, the order data can be generated by the user throughscanning an RFID tag associated with the commodity object(s) using theterminal device. In some embodiments, the order data may further begenerated by scanning the purchased commodity object(s) through ascanning function, the specific manner of which is not limited herein.

In some embodiments, when the verification is passed, if the RF signalincludes the order data, a payment amount can be determined according tothe order data. The payment amount can be carried in the payment requestto be sent to the server, such that the server deducts the paymentamount from the payment account according to the payment amount tocomplete the payment.

The technical solution according to some embodiments can include:receiving one or more RF signals including device identifiers sent by atleast one terminal device; selecting an RF signal from the received RFsignals, and using a terminal device corresponding to a deviceidentifier included in the RF signal as a target payment device;collecting first biometric feature information of a user using theterminal device; and after obtaining a user identity verification resultbased on the first biometric feature information, sending a paymentrequest to a server if the verification result is passing theverification. The payment request can be used to request for completingpayment based on a payment account corresponding to the target paymentdevice. A payment device can be selected through the RF signal sent bythe terminal device. The biometric feature information of the user canbe collected, so that identity authentication can be performed on theuser by using the biometric feature information. Payment can becompleted when the authentication is passed, thereby ensuring bothsecurity and convenience of the payment processing operations. Further,the processes of the payment operations can be simplified. With thetechnical solutions provided herein, hands-free electronic payment canbe achieved, which effectively improves user experience in electronicpayment.

FIG. 5 is a flowchart of a service processing method 500 according tosome embodiments. The method 500 may be executed by an applicationclient having a hands-free payment function, and the application clientcan be installed in a terminal device. As shown in FIG. 5, the method500 can include the following steps.

In step 501, an RF signal including a device identifier is transmitted.In some embodiments, when it is detected that a short-rangecommunication function is enabled, the RF signal can be transmittedperiodically or in real time.

In step 503, payment information is received, wherein the paymentinformation is sent by a server after completing payment based on apayment account corresponding to the device identifier. The deviceidentifier can be carried in a payment request sent by a serviceprocessing device. The payment request can be sent by the serviceprocessing device after receiving the RF signal and when a verificationresult of verifying a user's identity based on collected first biometricfeature information of the user is passing the verification.

In some embodiments, before the receiving payment information, themethod 500 can further include: receiving a query message sent by theservice processing device, wherein the query message is configured toconfirm whether the user using the terminal device is consistent withthe user corresponding to the device identifier included in the RFsignal; and sending confirmation information to the service processingdevice when it is confirmed that the user using the terminal device isconsistent with the user corresponding to the device identifier includedin the RF signal.

In some embodiments, before the transmitting payment information, themethod 500 can further include: scanning a commodity object selected bythe user to generate order data. The transmitting the RF signal caninclude: transmitting the RF signal carrying the order data and thedevice identifier.

FIG. 6 is a flowchart of a service processing method 600 according tosome embodiments. The method 600 may include the following steps.

In step 602, a terminal device transmits an RF signal including a deviceidentifier. In some embodiments, the terminal device may also send apayment request including the device identifier to a server.

In step 604, a service processing device receives RF signals includingdevice identifiers sent by at least one terminal device.

In step 606, the service processing device selects an RF signal from thereceived RF signals, and takes a terminal device corresponding to adevice identifier included in the RF signal as a target payment device.

In step 608, the service processing device collects first biometricfeature information of a user using the terminal device.

In step 610, the service processing device sends the payment requestcarrying the collected first biometric feature information and thedevice identifier included in the selected RF signal to the server.

In step 612, the server receives the payment request sent by the serviceprocessing device.

In step 614, the server determines second biometric feature informationcorresponding to the device identifier included in the payment requestaccording to a mapping relationship between the device identifier andthe biometric feature information.

In step 616, the user's identity is verified according to the firstbiometric feature information and the second biometric featureinformation.

In step 618, when the verification result is passing the verification,the server determines a payment account corresponding to the deviceidentifier included in the payment request according to a mappingrelationship between the device identifier and the payment account.

In step 620, the server deducts the payment amount from the paymentaccount according to the payment amount included in the payment requestfor completing the payment.

FIG. 7 is a schematic diagram of a service processing device 700according to some embodiments. The service processing device 700 caninclude: a receiving unit 701, a selecting unit 702, a collecting unit703, and a sending unit 704. As shown in FIG. 7, in some embodiments,the service processing device 700 can further include a storing unit705, and an updating unit 706.

The receiving unit 701 can be configured to receive RF signals includingdevice identifiers and sent by at least one terminal device.

The selecting unit 702 can be configured to select an RF signal from thereceived RF signals, and use a terminal device corresponding to a deviceidentifier included in the RF signal as a target payment device.

The collecting unit 703 can be configured to collect first biometricfeature information of a user using the terminal device.

The sending unit 704 can be configured to, after obtaining a useridentity verification result based on the first biometric featureinformation, send a payment request to a server if the verificationresult is passing the verification. The payment request can beconfigured to request for completing payment based on a payment accountcorresponding to the target payment device.

In some embodiments, the selecting, by the selecting unit 702, an RFsignal from the received RF signals can further include the followingprocedures: determining a signal strength of each of the received RFsignals; and determining the RF signal having the signal strengthgreater than a preset value as the selected RF signal.

In some embodiments, the selecting, by the selecting unit 702, an RFsignal from the received RF signals can include: determining a distancevalue indicating a distance from a terminal device sending each of theRF signals to the receiving unit 701; and determining the RF signal withthe distance value smaller than a preset threshold as the selected RFsignal.

In some embodiments, the selecting, by the selecting unit 702, an RFsignal from the received RF signals can include: acquiring, from aserver, user information corresponding to the device identifier includedin each of the received RF signals according to a preset maskingalgorithm, wherein the user information is configured to distinguisheach of the RF signals; and selecting an RF signal from the received RFsignals according to the user information.

In some embodiments, the selecting, by the selecting unit 702, an RFsignal from the received RF signals according to the user informationcan include: sending a query message to the terminal device sending theRF signal according to the user information, wherein the query messageis configured to confirm whether the user using the terminal devicematches the user corresponding to the device identifier included in theRF signal; and determining the RF signal sent by the terminal device asthe selected RF signal after receiving confirmation information sent bythe terminal device.

In some embodiments, the selecting, by the selecting unit 702, an RFsignal from the received RF signals can include: determining a time atwhich each of the RF signals is received; sorting each of the RF signalsaccording to the determined time; and determining the RF signal having asorting number smaller than a preset number as the selected RF signalaccording to the sorting result.

In some embodiments, the receiving, by the receiving unit 701. RFsignals including device identifiers and sent by at least one terminaldevice can include: receiving the RF signals including the deviceidentifiers and sent by the at least one terminal device through ashort-range communication mode. In some embodiments, the short-rangecommunication mode can include: one or more of a Bluetooth communicationmode, a near field communications (NFC) mode, a wireless fidelity (WIFI)mode, and a sound wave mode.

In some embodiments, the receiving, by the receiving unit 701, RFsignals including device identifiers and sent by at least one terminaldevice can include: receiving the RF signals including the deviceidentifiers and sent by the terminal device when it is detected that theterminal device arrives at a detection region.

In some embodiments, the detecting, by the receiving unit 701 that theterminal device arrives at a detection region can include: transmittinga detection signal in a preset detection region; and determining thatthe arrival of the terminal device at the detection region is detected,when a feedback signal sent by the terminal device is detected.

In some embodiments, the collecting, by the collecting unit 703, firstbiometric feature information of a user using the terminal device caninclude: collecting the first biometric feature information of the userusing the terminal device through an image recognition device.

In some embodiments, the collecting, by the collecting unit 703, thefirst biometric feature information of the user using the terminaldevice through an image recognition device can include: collecting thefirst biometric feature information of the user through the imagerecognition device when it is determined that the user using theterminal device arrives at the detection region.

In some embodiments, the biometric feature information can include oneor more of: face feature information, fingerprint information, palmprintinformation, eye print information, and iris information.

In some embodiments, the acquiring, by the sending unit 704, a useridentity verification result based on the first biometric featureinformation can include: acquiring, from a server, second biometricfeature information of the user corresponding to the device identifierincluded in the selected RF signal, wherein the server stores a mappingrelationship between a device identifier and biometric featureinformation of the user corresponding to the device identifier;comparing the first biometric feature information with the secondbiometric feature information; and obtaining a user identityverification result according to the comparison result.

In some embodiments, the obtaining, by the sending device 704, a useridentity verification result according to the comparison result canfurther include: if the first biometric feature information isconsistent with the second biometric feature information, determiningthat the verification on the user's identity is passed; and if the firstbiometric feature information is not consistent with the secondbiometric feature information, determining that the verification on theuser's identity is not passed.

In some embodiments, the acquiring, by the sending unit 704, a useridentity verification result based on the first biometric featureinformation can include: sending the first biometric feature informationand the device identifier included in the selected RF signal to aserver, so that the server verifies the user's identity according to thefirst biometric feature information and the second biometric featureinformation of the user corresponding to the device identifier includedin the selected RF signal, wherein the server stores the mappingrelationship between a device identifier and biometric featureinformation of the user corresponding to the device identifier; andreceiving the verification result sent by the server.

In some embodiments, sending by the sending device 704, a paymentrequest to a server can include: when the verification is passed, if theRF signal includes order data, determining a payment amount according tothe order data; and sending the payment request carrying the paymentamount to the server.

In some embodiments, the service processing device 700 further include astoring unit 705. The receiving unit 701 can be further configured toreceive first monitoring data sent by an IoT monitoring device, whereinthe first monitoring data includes a device identifier of a terminaldevice used by a user entering a target site. The storing unit 705 canbe configured to store the device identifier into a user list.

In some embodiments, the service processing device 700 can furtherinclude an updating unit 706. The receiving unit 701 can be configuredto receive second monitoring data sent by an IoT monitoring device,wherein the second monitoring data includes a device identifier of aterminal device used by a user departing from the target site. Theupdating unit 706 can be configured to update the user list according tothe second monitoring data.

It should be appreciated that, the service processing device 700 may beimplemented by means of software or hardware or a combination ofsoftware and hardware, which is not limited herein. The serviceprocessing device 700 can select the payment device through the RFsignal sent by the terminal device, then collect the biometric featureinformation of the user, perform identity authentication on the user byusing the biometric feature information, and complete payment when theauthentication is passed. Both security of payment operations andconvenience in processing the payment operations can be improved,thereby simplifying processes of the payment operations. With thesolutions provided herein, hands-free payment in the field of electronicpayment can be implemented, which can effectively improve the userexperience in electronic payment.

In some embodiments, a service processing device can include: at leastone processor; and a memory storing programs causing the at least oneprocessor to perform the following procedures: receiving RF signalsincluding device identifiers and sent by at least one terminal device;selecting an RF signal from the received RF signals, and using aterminal device corresponding to a device identifier included in the RFsignal as a target payment device; collecting first biometric featureinformation of a user using the terminal device; and after obtaining auser identity verification result based on the first biometric featureinformation, sending a payment request to a server if the verificationresult is passing the verification. The payment request can be used torequest for completing payment based on a payment account correspondingto the target payment device. For details of the procedures, referencecan be made to the corresponding processes described above with respectto the method and device embodiments.

FIG. 8 is a schematic diagram of a terminal device 800 according to someembodiments. As shown in FIG. 8, the terminal device 800 can include asending unit 801 and a receiving unit 802. In some embodiments, theterminal device 800 can further include a scanning unit 803.

The sending unit 801 can be configured to transmit an RF signalincluding a device identifier.

The receiving unit 802 can be configured to receive payment information,wherein the payment information is sent by a server after completingpayment based on a payment account corresponding to the deviceidentifier. The device identifier can be carried in a payment requestsent by a service processing device. The payment request can be sent bythe service processing device after receiving the RF signal and when averification result of verifying a user's identity based on collectedfirst biometric feature information of the user is passing theverification.

In some embodiments, the transmitting the RF signal by the sending unit801 can include: transmitting the RF signal periodically or in real timewhen it is detected that a short-range communication function isenabled.

In some embodiments, the receiving unit 802 can be configured to, beforereceiving payment information, receive a query message sent by theservice processing device. The query message can be configured toconfirm whether the user using the terminal device is consistent withthe user corresponding to the device identifier included in the RFsignal. The sending unit 801 can be configured to send confirmationinformation to the service processing device when it is confirmed thatthe user using the terminal device is consistent with the usercorresponding to the device identifier included in the RF signal areconsistent.

In some embodiments, the terminal device 800 can further include ascanning unit 803. The scanning unit 803 can be configured to, beforetransmitting the RF signal, scan a commodity object selected by the userto generate order data. The transmitting the RF signal by the sendingunit 801 can include: transmitting the RF signal carrying the order dataand the device identifier.

It should be appreciated that, the terminal device 800 may beimplemented by means of software or hardware or a combination ofsoftware and hardware, which is not limited herein.

In some embodiments, a terminal device include: at least one processor;and a memory storing programs causing the at least one processor toperform the following procedures: transmitting an RF signal including adevice identifier; and receiving payment information sent by a serverafter completing payment based on a payment account corresponding to thedevice identifier. The device identifier can be carried in a paymentrequest sent by a service processing device. The payment request can besent by the service processing device after receiving the RF signal andwhen a verification result of verifying a user's identity based oncollected first biometric feature information of the user is passing theverification. For details of these procedures, reference can be made tocorresponding processes described above with respect to the method anddevice embodiments.

FIG. 9 is a schematic diagram of a service processing apparatus 900according to some embodiments. The service processing apparatus 900 canbe, for example, a server, or an apparatus located in a server. Theservice processing apparatus 900 can include a receiving unit 901, adetermining unit 902, and a processing unit 903. In some embodiments,the service processing apparatus 900 can further include a verifyingunit 904, and a sending unit 905.

The receiving unit 901 can be configured to receive a payment requestsent by a service processing device. The payment request can include adevice identifier of a terminal device, and the device identifier can beobtained by selecting based on the received RF signals sent by at leastone terminal device.

The determining unit 902 can be configured to determine a paymentaccount corresponding to the device identifier included in the paymentrequest according to a mapping relationship between the deviceidentifier and the payment account.

The processing unit 903 can be configured to complete payment by usingthe payment account.

In some embodiments, the service processing apparatus 900 can furtherinclude a verification unit 904. The verification unit 904 can beconfigured to: before determining a payment account corresponding to thedevice identifier included in the payment request, if the paymentrequest includes first biometric feature information of a user,determine second biometric feature information corresponding to thedevice identifier included in the payment request, according to themapping relationship between the device identifier and the biometricfeature information; and verify the user's identity according to thefirst biometric feature information and the second biometric featureinformation.

In some embodiments, the service processing apparatus 900 can furtherinclude a sending unit 905. The sending unit 905 can be configured tosend a verification result.

In some embodiments, determining, by the determining unit 902, a paymentaccount corresponding to the device identifier included in the paymentrequest can include: if the verification result is passing theverification, determining the payment account corresponding to thedevice identifier included in the payment request.

In some embodiments, completing, by the processing unit 903, payment byusing the payment account can include: deducting the payment amount fromthe payment account according to the payment amount included in thepayment request for completing the payment.

It should be appreciated that, the service processing apparatuses 900may be implemented by means of software or hardware or a combination ofsoftware and hardware, which is not limited herein.

In some embodiments, a service processing apparatus comprises: at leastone processor; and a memory storing programs causing the at least oneprocessor to perform the following procedures: receiving a paymentrequest sent by a service processing device, wherein the payment requestincludes a device identifier of a terminal device, and the deviceidentifier is obtained by selecting based on received RF signals sent byat least one terminal device; and determining a payment accountcorresponding to the device identifier included in the payment requestaccording to a mapping relationship between the device identifier andthe payment account; and completing payment by using the paymentaccount. For details of these procedures, reference can be made tocorresponding processes described above with respect to the method anddevice embodiments.

FIG. 10 is a schematic diagram of a service processing system 1000according to some embodiments. The system 1000 includes: a serviceprocessing device 1001, a terminal device 1002, and a server 1003.

The service processing device 1001 can be configured to receive RFsignals including device identifiers sent by at least one terminaldevice; select an RF signal from the received RF signals, and use aterminal device corresponding to the device identifier included in theRF signal as a target payment device; collect first biometric featureinformation of a user using the terminal device; and after obtaining auser identity verification result based on the first biometric featureinformation, send a payment request to a server if the verificationresult is passing the verification. The payment request can beconfigured to request for completing payment based on a payment accountcorresponding to the target payment device.

The terminal device 1002 can be configured to transmit an RF signal; andreceive payment information.

The server 1003 can be configured to receive the payment request sent bythe service processing device, and complete payment based on the paymentaccount corresponding to the device identifier included in the paymentrequest, thereby sending the payment information to the terminal devicecorresponding to the device identifier.

For details of these procedures, reference can be made to correspondingprocesses described above with respect to the method and deviceembodiments.

Each of the above described methods and units may be implemented assoftware, or hardware, or a combination of software and hardware. Forexample, a Programmable Logic Device (PLD) (such as a Field ProgrammableGate Array (FPGA)) is an integrated circuit, the logic functions ofwhich can be programed by a user. Designers can “integrate” a digitalsystem on a single PLD through programing, without requiring a chipmanufacturer to design and fabricate a dedicated integrated circuitchip. Moreover, instead of manually making integrated circuit chips,programming can be implemented using logic compiler software, which issimilar to a software compiler used in programming development. Theoriginal codes before compiling can be written in a programminglanguage, which can be referred to as Hardware Description Language(HDL). There may be different types of HDL, such as ABEL (AdvancedBoolean Expression Language). AHDL (Altera Hardware DescriptionLanguage), Confluence, CUPL (Cornell University Programming Language),HDCal, JHDL (Java Hardware Description Language), Lava, Lola, MyHDL,PALASM, RHDL (Ruby Hardware Description Language), etc. For example,commonly used HDLs include VHDL (Very-High-Speed Integrated CircuitHardware Description Language) and Verilog. It is appreciated thatmethod procedures described above can be programmed into an integratedcircuit through logic programming using the above HDLs. A hardwarecircuit that implements the logic method procedures can be obtained.

The processing component (e.g., the processor) in the above describeddevices can be implemented in any suitable manner. For example, theprocessing component can be in a form of, for example, a microprocessoror processor and a computer readable medium, for storing computerreadable program codes (e.g., software or firmware) executable by the(micro)processor, a logic gate, a switch, an Application SpecificIntegrated Circuit (ASIC), a programmable logic controller, and anembedded microcontroller. Examples of controllers include, but are notlimited to, the following micro-controls: ARC 625D. Atmel AT91SAM,Microchip PIC18F26K20 and Silicone Labs C8051F320. The memory componentcan also be implemented as a part of the control logic of the memory.Those skilled in the art will also appreciate that in addition toimplementing the processing component in purely computer readableprogram codes, the processing component can implement the same functionsin a form of a logic gate, a switch, an ASIC, a programmable logiccontroller, and an embedded microcontroller by logically programming themethod procedures. Thus, such a processing component can be consideredas a hardware component, and the means for implementing variousfunctions included therein can also be considered as a structure withinthe hardware component. Alternatively, the means for implementingvarious functions can be considered as either a software module thatimplements a method or a structure within a hardware component.

The system, the device, the module or the unit set forth in the aboveembodiments may be implemented by a computer chip or an entity, or by aproduct having a certain function. For example, the implementationdevice can be a computer. The computer can be in the form of, forexample, a personal computer, a laptop computer, a cellular phone, acamera phone, a smart phone, a personal digital assistant, a mediaplayer, a navigation device, an email device, a game console, a tablet,a wearable device, or a combination of any of these devices.

For the convenience of description, the above devices are described invarious units divided by functions. The units may be divided in adifferent manner. The functions of the various units may also beimplemented in one or more pieces of software and/or hardware in theimplementation of embodiments of the specification.

Those skilled in the art will appreciate that embodiments of thespecification can be provided as a method, a system, or a computerprogram product. Thus, the specification can take the form of anentirely hardware embodiment, an entirely software embodiment, or anembodiment combining software and hardware. Moreover, the specificationcan take a form of a computer program product embodied by one or morecomputer usable storage media (including but not limited to a diskstorage, a CD-ROM, an optical storage, etc.) in which computer usableprogram codes are included.

Some embodiments of the specification are described with reference toflowcharts and/or block diagrams. It will be understood that each stepand/or block of the flowcharts and/or block diagrams, and combinationsof the procedures and/or blocks in the flowcharts and/or block diagramsmay be implemented in the form of computer program instructions. Suchcomputer program instructions can be provided to a processor of ageneral purpose computer, a special purpose computer, an embeddedprocessor, or other programmable data processing device to produce amachine. The functions associated with one or more procedures describedwith reference to the flowcharts and/or one or more blocks in the blockdiagrams can be implemented by a processor of the computer or otherprogrammable data processing device executing the instructions.

The computer program instructions can also be stored in a computerreadable memory which can guide a computer or other programmable dataprocessing device to operate in a particular manner, causinginstructions stored in the computer readable memory to produce anarticle of manufacture of an instruction device. The instruction devicecan implement functions associated with one or more procedures describedabove with reference to the flowcharts and/or one or more blocks in theblock diagrams.

These computer program instructions can also be loaded onto a computeror other programmable data processing devices so that a series ofoperational procedures can be executed on the computer or otherprogrammable data processing devices. For example, the instructionsexecuted on the computer or other programmable data processing deviceprovide procedures implementing functions described in one or moreprocedures in the flowcharts and/or one or more blocks in the blockdiagrams.

As an example, a computing device that can be used to implement theabove-described methods can include one or more processors (CPUs), aninput/output interface, a network interface, and a memory. The memorymay include a non-permanent memory in a computer readable medium, arandom access memory (RAM) and/or a non-volatile memory, such as a readonly memory (ROM) or a flash memory (flash RAM). The memory is anexample of a computer readable medium.

The computer readable medium can include permanent and non-permanent,removable and non-removable media that can implement information storageusing various methods. The information may be computer readableinstructions, data structures, modules of a program, or other data.Examples of the computer storage medium can include, but are not limitedto, a phase change memory (PRAM), a static random access memory (SRAM),a dynamic random access memory (DRAM), other types of random accessmemory (RAM), a read only memory (ROM), an electrically erasableprogrammable read only memory (EEPROM), a flash memory or other memorytechnologies, a CD-ROM, a digital versatile disc (DVD) or other opticalstorage, a magnetic cassette, a magnetic tape or disc storage or othermagnetic storage device, or any other non-transportable medium that canbe used to store information accessible by a computing device. Thecomputer readable medium may not include transitory computer readablemedia (transitory media), such as modulated data signals and carrierwaves.

It is appreciated that the terms “include” or “comprise” or any othervariations used herein may encompass a non-exclusive inclusion. Aprocess, a method, an article, or a device that includes a series ofelements can include not only those listed elements but also otherelements that are not explicitly listed, or elements that are inherentto such a process, a method, an article, or a device. An element definedby the phrase “comprising a . . . ,” without further limitation, doesnot exclude the presence of additional identical elements in theprocess, the method, the article, or the device including the element.

As noted above, embodiments of the specification can be implemented inthe form of computer-executable instructions executed by a computer,such as program modules. Generally, the program modules can includeroutine, programs, objects, components, data structures, and the likethat can be used to perform particular tasks or implement particulardata types. Further, embodiments of the specification can also bepracticed in distributed computing environments where tasks areperformed by remote processing devices that are connected through acommunication network. In a distributed computing environment, programmodules can be located in both local and remote computer storage media.

Various embodiments of the specification are described above. Referencecan be made to identical or similar parts described with respect todifferent embodiments. Further, description of one embodiment may focuson differences from some other embodiments. For example, for the systemembodiments, as the procedures performed therein may be similar to themethod embodiments, reference can be made to the detailed descriptionprovided with respect to the method embodiments.

The above description provides only some embodiments of thespecification and is not intended to limit the specification. Variouschanges and modifications can be made to the embodiments by thoseskilled in the art, consistent with the specification. Anymodifications, equivalent substitutions, improvements, etc. madeconsistent with the spirit of the specification shall all fall withinthe scope defined in the appended claims.

What is claimed is:
 1. A service processing method, comprising:receiving radio frequency (RF) signals sent by at least one terminaldevice, the RF signals including at least one device identifier of theat least one terminal device; selecting an RF signal from the receivedRF signals, and determining a terminal device corresponding to a deviceidentifier included in the selected RF signal as a target paymentdevice; collecting first biometric feature information of a user usingthe terminal device; obtaining a verification result of a verificationon the user's identity based on the first biometric feature information;and sending a payment request to a server if the verification is passed,wherein the payment request is configured to request for completingpayment based on a payment account corresponding to the target paymentdevice, wherein selecting the RF signal from the received RF signalscomprises at least one of: determining, from the received RF signals, anRF signal having a signal strength greater than a preset value;determining, from the received RF signals, an RF signal corresponding toa distance value smaller than a preset threshold; or selecting an RFsignal from the received RF signals according to user information, andwherein obtaining the verification result of the verification on theuser's identity based on the first biometric feature informationcomprises: obtaining the verification result of the verification on theuser's identity based on a mapping relationship between the deviceidentifier included in the selected RF signal and second biometricfeature information of a user corresponding to the device identifier,wherein the mapping relationship is stored on the server.
 2. The serviceprocessing method of claim 1, wherein selecting the RF signal from thereceived RF signals further comprises: determining a time at which eachof the RF signals is received; sorting each of the RF signals accordingto the time; and determining, according to a sorting result, an RFsignal having a sorting number smaller than a preset number.
 3. Theservice processing method of claim 1, wherein receiving the RF signalssent by the at least one terminal device comprises: receiving the RFsignals sent by the at least one terminal device when detecting that theat least one terminal device arrives at a detection region.
 4. Theservice processing method of claim 3, wherein detecting that the atleast one terminal device arrives at the detection region comprises:transmitting a detection signal; and when a feedback signal sent by theterminal device is received, determining that the terminal devicearrives at the detection region.
 5. The service processing method ofclaim 1, wherein collecting the first biometric feature information ofthe user using the terminal device comprises: collecting the firstbiometric feature information of the user using the terminal devicethrough an image recognition device.
 6. The service processing method ofclaim 1, wherein the first biometric feature information comprises oneor more of face feature information, fingerprint information, palmprintinformation, eye print information, and iris information.
 7. The serviceprocessing method of claim 1, further comprising: acquiring, from theserver, the second biometric feature information of the usercorresponding to the device identifier; comparing the first biometricfeature information with the second biometric feature information; andobtaining the verification result of the verification on the user'sidentity according to a comparison result.
 8. The service processingmethod of claim 1, wherein sending the payment request to the servercomprises: when the verification is passed, determining a payment amountaccording to order data included in the selected RF signal; and sendingthe payment request carrying the payment amount to the server.
 9. Theservice processing method of claim 1, further comprising: receivingfirst monitoring data sent by an Internet of Things monitoring device,wherein the first monitoring data includes the device identifier of theterminal device used by the user entering a target site; and storing thedevice identifier into a user list.
 10. A service processing device,comprising: a processor; and a memory storing instructions executable bythe processor; wherein the processor is configured to: receive radiofrequency (RF) signals sent by at least one terminal device, the RFsignals including at least one device identifier of the at least oneterminal device; select an RF signal from the received RF signals, anddetermining a terminal device corresponding to a device identifierincluded in the selected RF signal as a target payment device; collectfirst biometric feature information of a user using the terminal device;obtain a verification result of a verification on the user's identitybased on the first biometric feature information; and send a paymentrequest to a server if the verification is passed, wherein the paymentrequest is configured to request for completing payment based on apayment account corresponding to the target payment device, wherein inselecting the RF signal from the received RF signals, the processor isfurther configured to perform at least one of: determining, from thereceived RF signals, an RF signal having a signal strength greater thana preset value; determining, from the received RF signals, an RF signalcorresponding to a distance value smaller than a preset threshold; orselecting an RF signal from the received RF signals according to userinformation, and wherein in obtaining the verification result of theverification on the user's identity based on the first biometric featureinformation, the processor is further configured to: obtain theverification result of the verification on the user's identity based ona mapping relationship between the device identifier included in theselected RF signal and second biometric feature information of a usercorresponding to the device identifier, wherein the mapping relationshipis stored on the server.
 11. The service processing device of claim 10,wherein in selecting the RF signal from the received RF signals, theprocessor is further configured to: determine a time at which each ofthe RF signals is received; sort each of the RF signals according to thetime; and determine, according to a sorting result, an RF signal havinga sorting number smaller than a preset number.
 12. The serviceprocessing device of claim 10, wherein the processor is furtherconfigured to: receive the RF signals sent by the at least one terminaldevice when detecting that the at least one terminal device arrives at adetection region.
 13. The service processing device of claim 12, whereinthe processor is further configured to: transmit a detection signal; andwhen a feedback signal sent by the terminal device is received,determine that the terminal device arrives at the detection region. 14.The service processing device of claim 10, wherein the processor isfurther configured to: collect the first biometric feature informationof the user using the terminal device through an image recognitiondevice.
 15. The service processing device of claim 10, wherein the firstbiometric feature information comprises one or more of face featureinformation, fingerprint information, palmprint information, eye printinformation, and iris information.
 16. The service processing device ofclaim 10, wherein the processor is further configured to: acquire, fromthe server, the second biometric feature information of the usercorresponding to the device identifier; compare the first biometricfeature information with the second biometric feature information; andobtain the verification result of the verification on the user'sidentity according to a comparison result.
 17. The service processingdevice of claim 10, wherein the processor is further configured to: whenthe verification is passed, determine a payment amount according toorder data included in the selected RF signal; and send the paymentrequest carrying the payment amount to the server.
 18. A non-transitorycomputer readable medium storing instructions that, when executed by aprocessor of a device, cause the device to perform a service processingmethod, the method comprising: receiving radio frequency (RF) signalssent by at least one terminal device, the RF signals including at leastone device identifier of the at least one terminal device; selecting anRF signal from the received RF signals, and determining a terminaldevice corresponding to a device identifier included in the selected RFsignal as a target payment device; collecting first biometric featureinformation of a user using the terminal device; obtaining averification result of a verification on the user's identity based onthe first biometric feature information; and sending a payment requestto a server if the verification is passed, wherein the payment requestis configured to request for completing payment based on a paymentaccount corresponding to the target payment device, wherein selectingthe RF signal from the received RF signals comprises at least one of:determining, from the received RF signals, an RF signal having a signalstrength greater than a preset value; determining, from the received RFsignals, an RF signal corresponding to a distance value smaller than apreset threshold; or selecting an RF signal from the received RF signalsaccording to user information, and wherein obtaining the verificationresult of the verification on the user's identity based on the firstbiometric feature information comprises: obtaining the verificationresult of the verification on the user's identity based on a mappingrelationship between the device identifier included in the selected RFsignal and second biometric feature information of a user correspondingto the device identifier, wherein the mapping relationship is stored onthe server.